Selective Gasoline Synthesis from CO2 on A Highly Active Methanol Synthesis Catalyst and an H-Fe-Silicate of MFI Structure
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Elsevier
Reference23 articles.
1. Synthesis gas conversion to aromatic hydrocarbons
2. Enhancement of methanation activity by ammonia-water vapor treatment at the stage of catalyst-metal salt supported on a carrier
3. T. Inui T. Takeguchi A. Kohama K. Tanida, Proc. 1st Intern. Confer. on Carbon Dioxide Removal, Amsterdam, March 1992, under contribution.
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1. Effect of the property of solid acid upon syngas-to-dimethyl ether conversion on the hybrid catalysts composed of Cu–Zn–Ga and solid acids;Applied Catalysis A: General;2000-02
2. CO2 hydrogenation over Pd-modified methanol synthesis catalysts;Catalysis Today;1998-10
3. Hydrocarbon synthesis from CO2 over Fe–Cu catalysts;Catalysis Today;1998-10
4. Effective synthesis of ethanol from CO2 on polyfunctional composite catalysts;Catalysis Today;1998-10
5. Direct synthesis of gasoline from carbon dioxide via methanol as the intermediate;Studies in Surface Science and Catalysis;1998
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